Information processing apparatus, information processing method, and information processing system for display of various types of information related to image capturing

ABSTRACT

To present various types of information related to image capturing in a more suitable manner. An information processing apparatus including: a display control unit that causes an image captured by any of one or a plurality of imaging devices to be displayed in a captured image display region that is a part of a display unit, cause second information related to the one or plurality of imaging devices to be displayed in a captured image hiding region that is a part of the display unit and different from the captured image display region, and cause first information related to the one or plurality of corresponding imaging devices to be displayed in the captured image display region in accordance with the second information being displayed and the one or plurality of imaging devices being in a determined state.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a U.S. National Phase of International PatentApplication No. PCT/JP2016/078217 filed on Sep. 26, 2016, which claimspriority benefit of Japanese Patent Application No. JP 2015-256141 filedin the Japan Patent Office on Dec. 28, 2015. Each of theabove-referenced applications is hereby incorporated herein by referencein its entirety.

TECHNICAL FIELD

The present disclosure relates to an information processing apparatus,an information processing method, a program, and an informationprocessing system.

BACKGROUND ART

Imaging devices such as digital still cameras and digital video cameras(hereinafter collectively referred to as a “digital camera” in somecases) have been widely spread, and their types have been diversified.For example, Patent Literature 1 discloses an example of an imagingdevice configured as a digital camera.

In addition, in recent years, an imaging device has been proposed thatcan be manipulated from an external device such as a smartphone or aremote controller by utilizing a wireless network based on a standardsuch as Wi-Fi (Wireless Fidelity) (registered trademark) or Bluetooth(registered trademark).

CITATION LIST Patent Literature

Patent Literature 1: JP 2012-44566A

DISCLOSURE OF INVENTION Technical Problem

In addition, in recent years, the usage form and usage scenario of animaging device have been diversified further along with achievement ofsize reduction of an image sensor and an optical system. In particular,in the case of capturing an image using an imaging device such as adigital camera, a usage form in which a user captures an image whilechecking information or the like that indicates various states such as azoom magnification and a remaining battery level, in addition to aso-called preview image, may be expected. Expecting such circumstances,provision of an easier-to-use user interface (UI) that can presentvarious types of information utilizing a restricted display region moreeffectively is demanded.

Therefore, the present disclosure proposes an information processingapparatus, an information processing method, a program, and aninformation processing system that can present various types ofinformation related to image capturing in a more suitable manner.

Solution to Problem

According to the present disclosure, there is provided an informationprocessing apparatus including: a display control unit configured tocause an image captured by any of one or a plurality of imaging devicesto be displayed in a captured image display region that is a part of adisplay unit, cause second information related to the one or pluralityof imaging devices to be displayed in a captured image hiding regionthat is a part of the display unit and different from the captured imagedisplay region, and cause first information related to the one orplurality of corresponding imaging devices to be displayed in thecaptured image display region in accordance with the second informationbeing displayed and the one or plurality of imaging devices being in apredetermined state.

In addition, according to the present disclosure, there is provided aninformation processing method including, by a processor: causing animage captured by any of one or a plurality of imaging devices to bedisplayed in a captured image display region that is a part of a displayunit; causing second information related to the one or plurality ofimaging devices to be displayed in a captured image hiding region thatis a part of the display unit and different from the captured imagedisplay region; and causing first information related to the one orplurality of corresponding imaging devices to be displayed in thecaptured image display region in accordance with the second informationbeing displayed and the one or plurality of imaging devices being in apredetermined state.

In addition, according to the present disclosure, there is provided aprogram causing a computer to execute: causing an image captured by anyof one or a plurality of imaging devices to be displayed in a capturedimage display region that is a part of a display unit; causing secondinformation related to the one or plurality of imaging devices to bedisplayed in a captured image hiding region that is a part of thedisplay unit and different from the captured image display region; andcausing first information related to the one or plurality ofcorresponding imaging devices to be displayed in the captured imagedisplay region in accordance with the second information being displayedand the one or plurality of imaging devices being in a predeterminedstate.

In addition, according to the present disclosure, there is provided aninformation processing system including: one or a plurality of imagingdevices configured to capture an image; and a display control deviceincluding a communication unit configured to communicate with the one orplurality of imaging devices and a display control unit configured tocause the image captured by any of the one or plurality of imagingdevices to be displayed in a captured image display region that is apart of a display unit. The display control unit causes secondinformation related to the one or plurality of imaging devices to bedisplayed in a captured image hiding region that is a part of thedisplay unit and different from the captured image display region, andcauses first information related to the one or plurality ofcorresponding imaging devices to be displayed in the captured imagedisplay region in accordance with the second information being displayedand the one or plurality of imaging devices being in a predeterminedstate.

Advantageous Effects of Invention

According to the present disclosure as described above, an informationprocessing apparatus, an information processing method, a program, andan information processing system that can present various types ofinformation related to image capturing in a more suitable manner areprovided.

Note that the effects described above are not necessarily limitative.With or in the place of the above effects, there may be achieved any oneof the effects described in this specification or other effects that maybe grasped from this specification.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is an explanatory diagram for describing an example of aschematic system configuration of an information processing systemaccording to a first embodiment of the present disclosure.

FIG. 2 is a front view of a control device according to the embodiment.

FIG. 3 is a rear view of the control device according to the embodiment.

FIG. 4 is a right side view of the control device according to theembodiment.

FIG. 5 is a left side view of the control device according to theembodiment.

FIG. 6 is a bottom view of the control device according to theembodiment.

FIG. 7 is a front view of an imaging device according to the embodiment.

FIG. 8 is a rear view of the imaging device according to the embodiment.

FIG. 9 is a right side view of the imaging device according to theembodiment.

FIG. 10 is a left side view of the imaging device according to theembodiment.

FIG. 11 is a top view of the imaging device according to the embodiment.

FIG. 12 is a bottom view of the imaging device according to theembodiment.

FIG. 13 is a block diagram showing an example of a functionalconfiguration of the information processing system according to theembodiment.

FIG. 14 is an explanatory diagram for describing an example of a UIaccording to a comparative example.

FIG. 15 is an explanatory diagram for describing an example of a UI ofthe control device according to the embodiment.

FIG. 16 is an explanatory diagram for describing an example of a UI ofthe control device according to the embodiment.

FIG. 17 is an explanatory diagram for describing an example of a UI ofthe control device according to the embodiment.

FIG. 18 is an explanatory diagram for describing an example of a UI ofthe control device according to the embodiment.

FIG. 19 is an explanatory diagram for describing an example of displayinformation to be displayed on the UI according to the embodiment.

FIG. 20 is an explanatory diagram for describing an example of displayinformation to be displayed on the UI according to the embodiment.

FIG. 21 is an explanatory diagram for describing an example of displayinformation to be displayed on the UI according to the embodiment.

FIG. 22 is an explanatory diagram for describing an example of displayinformation to be displayed on the UI according to the embodiment.

FIG. 23 is an explanatory diagram for describing an example of displayinformation to be displayed on the UI according to the embodiment.

FIG. 24 is an explanatory diagram for describing an example of a UI ofthe imaging device according to the embodiment.

FIG. 25 is an explanatory diagram for describing an example of amanipulation menu of the control device according to the embodiment.

FIG. 26 is an explanatory diagram for describing an example of amanipulation menu of the imaging device according to the embodiment.

FIG. 27 is an explanatory diagram for describing an example of aschematic system configuration of an information processing systemaccording to a second embodiment of the present disclosure.

FIG. 28 is an explanatory diagram for describing an example of a UI of acontrol device according to the embodiment.

FIG. 29 is a block diagram showing a hardware configuration example of acontrol device according to one embodiment of the present disclosure.

MODE(S) FOR CARRYING OUT THE INVENTION

Hereinafter, (a) preferred embodiment(s) of the present disclosure willbe described in detail with reference to the appended drawings. Notethat, in this specification and the appended drawings, structuralelements that have substantially the same function and structure aredenoted with the same reference numerals, and repeated explanation ofthese structural elements is omitted.

Note that description will be provided in the following order.

1. First Embodiment

1.1. System configuration

1.2. Appearance example of apparatus

1.2.1. Configuration of control device

1.2.2. Configuration of imaging device

1.3. Functional configuration

1.4. Technical characteristics

1.4.1. Comparative example

1.4.2. UI of control device

1.4.3. Specific example of display information

1.4.4. UI of imaging device

1.4.5. Configuration of manipulation menu

1.5. Evaluation

2. Second Embodiment

2.1. System configuration

2.2. Technical characteristics

2.3. Evaluation

3. Hardware configuration

4. Conclusion

1. First Embodiment

<1.1. System Configuration>

First, an example of a system configuration of an information processingsystem according to a first embodiment of the present disclosure will bedescribed with reference to FIG. 1. FIG. 1 is an explanatory diagram fordescribing an example of a schematic system configuration of theinformation processing system according to the present embodiment.

As shown in FIG. 1, an information processing system 1 according to thepresent embodiment includes a control device 10 and an imaging device20. The imaging device 20 is equivalent to a device for capturing animage such as a still image or a moving image, such as a so-calleddigital camera. In addition, the control device 10 is equivalent to adevice for controlling the operation of the imaging device 20 from theoutside, such as a so-called remote controller or the like. Note thatthe control device 10 may be a user terminal such as a so-calledsmartphone or the like.

The control device 10 and the imaging device 20 are connected to becapable of communicating with each other via a wireless network N1. Aspecific example of the network N1 includes a network based on the Wi-Fi(registered trademark) standard. In the case of applying the network N1based on the Wi-Fi standard, for example, it is possible to achieve acommunication form as shown in FIG. 1 by causing the control device 10to operate as an access point and connecting the imaging device 20 as astation to the control device 10.

In addition, the control device 10 according to the present embodimentis configured to be capable of controlling the operation (for example,the operation related to image capturing) of the imaging device 20connected via the network N1. That is, the imaging device 20 is capableof capturing an image such as a moving image or a still image on thebasis of an instruction transmitted from the control device 10 via thenetwork N1.

More specifically, the control device 10 includes a display unit 111 andan input unit such as a recording button 121 and an up-down button 122which will be described later or the like. The display unit 111 includesa liquid crystal display or the like, and presents various types ofinformation as display information. In addition, the input unit such asthe recording button 121 and the up-down button 122 or the like isconfigured as a manipulation device such as a so-called button, switch,or the like, and accepts an input from a user.

On the basis of such a configuration, the control device 10 presents animage (for example, a preview image) captured by the imaging device 20and transmitted from the imaging device 20 via the network N1, forexample, to the user via the display unit 111. In addition, the controldevice 10 may acquire information indicating the setting and state ofthe imaging device 20 from the imaging device 20 via the network N1, andmay present the acquired information to the user via the display unit111.

In addition, the control device 10 is also capable of instructing theimaging device 20 to perform the operation related to image capturingvia the network N1 on the basis of an input from the user via the inputunit such as the recording button 121 and the up-down button 122 or thelike. Accordingly, it is also possible for the user to instruct theimaging device 20 to perform the operation related to image capturingvia the control device 10 while checking a preview image displayed onthe display unit 111 of the control device 10, for example.

Note that the operation of the imaging device 20 that can be controlledby the control device 10 via the network N1 is not limited only to theoperation of capturing an image such as a moving image or a still image.For example, the control device 10 is also capable of controlling anoperation related to the setting for capturing an image, such as anadjustment of zoom or shutter speed or the like, via the network N1.Note that, in the case of describing “the operation related to imagecapturing” in the following description, it is assumed that an operationrelated to the setting for capturing an image may also be included inaddition to the operation of capturing an image. In addition, theabove-described function may be achieved by, for example, installing anapplication created utilizing an application programming interface (API)for controlling the operation of the imaging device 20 via a network inthe control device 10. As a matter of course, an application forachieving the above-described function may be incorporated in thecontrol device 10 in advance.

Note that the control device 10 and the imaging device 20 may beconnected to be capable of communicating with each other via anothernetwork different from the network N1, in addition to the network N1. Asa specific example, the control device 10 and the imaging device 20 maybe connected via a network based on the Bluetooth (registered trademark)standard. In this case, for example, the control device 10 and theimaging device 20 may selectively switch between the above-describednetwork based on the Wi-Fi standard and a network based on the Bluetoothstandard.

More specifically, communication based on the Blutooth standard isrestricted in communication band as compared with communication based onthe Wi-Fi standard, but is advantageous in that the operation can beperformed with less consumption power. Thus, in a situation where animage is not transmitted/received between the control device 10 and theimaging device 20, for example, communication based on the Wi-Fistandard may be stopped temporarily, and only control information may betransmitted/received through communication based on the Blutoothstandard. Examples of the situation where an image is nottransmitted/received between the control device 10 and the imagingdevice 20 include a situation where the control device 10 is broughtinto the so-called sleep state, and the like.

Note that the imaging device 20 may be configured such that, in the casewhere the imaging device 20 is not connected to the control device 10via the network N1, the imaging device 20 itself can operateindependently. Thus, the imaging device 20 may be provided with amanipulation interface (for example, an input interface such as abutton, an output interface such as a display, and the like) formanipulating the imaging device 20.

An example of a schematic system configuration of the informationprocessing system according to the first embodiment of the presentdisclosure has been described above with reference to FIG. 1.

<1.2. Appearance Example of Apparatus>

Next, an example of schematic configurations of the control device 10and the imaging device 20 according to the first embodiment of thepresent disclosure will be described.

{1.2.1. Configuration of Control Device}

First, an example of a schematic configuration of the control device 10according to the present embodiment will be described with reference toFIG. 2 to FIG. 6. FIG. 2 to FIG. 6 are five side views showing anexample of a schematic configuration of the control device 10 accordingto the present embodiment, and respectively show the front view, therear view, the right side view, the left side view, and the bottom viewof the control device 10. Note that the present description will be madeassuming the direction corresponding to the top to the bottom of thefront view shown in FIG. 2 as the vertical direction of the controldevice 10, and assuming the direction corresponding to the left to theright as the lateral direction of the control device 10.

The control device 10 has a plate-like housing 11 whose front surfaceand rear surface have been formed in a substantially rectangular shapeas shown in FIG. 2 and FIG. 3. In addition, the top surface and thebottom surface of the housing 11 have such a curved shape that arcs areformed from the front surface side to the rear surface side as shown inFIG. 4 and FIG. 5.

The display unit 111 which is substantially rectangular is provided onthe front surface of the housing 11 as shown in FIG. 2, and therecording button 121 is provided under the display unit 111. The displayunit 111 is equivalent to the display unit 111 described with referenceto FIG. 1. In addition, the recording button 121 is an input interfacefor instructing the imaging device 20 connected to the control device 10via a network to start and stop recording of a moving image or tocapture a still image. Note that another function may be assigned to therecording button 121. In addition, it may be configured such thatfunctions assigned to the recording button 121 can be switchedselectively.

On the right side surface of the housing 11, the up-down button 122formed in a long shape along the vertical direction of the housing 11 isprovided as shown in FIG. 4. The up-down button 122 is an inputinterface for performing a manipulation such as selection from a menufor manipulating the control device 10 or switching between modes orfunctions. The up-down button 122 is configured such that the upper endside and the lower end side can each be pressed down with the center inthe vertical direction serving as the base point. As a specific example,the up-down button 122 may include a so-called seesaw switch, and may beconfigured such that the upper end side and the lower end side can bepressed down exclusively.

On the left side surface of the housing 11, a power button 123 and amenu button 124 are provided as shown in FIG. 5. For example, in theexample shown in FIG. 5, the power button 123 and the menu button 124are provided on the left side surface of the housing 11 so as to alignin the vertical direction of the housing 11. The power button 123 is aninput interface for turning on and off the power of the control device10. In addition, the menu button 124 is an input interface for causingthe manipulation menu of the control device 10 to be displayed on thedisplay unit 111. Note that another function may be assigned to the menubutton 124. In addition, it may be configured such that functionsassigned to the menu button 124 can be switched selectively.

In addition, as shown in FIG. 2 and FIG. 6, on the rear surface of thehousing 11, a projecting portion 191 extending toward the verticaldirection of the housing 11 such that side surfaces are formed in thelateral direction is provided. In addition, a connector 192 is providedon one of the lateral ends of the projecting portion 191, as shown inFIG. 3. The connector 192 is a component for electrically connecting abattery charger or another external unit to the control device 10. Inthe example shown in FIG. 3, for example, the connector 192 is providedon an end of the projecting portion 191 that is equivalent to the leftside surface side of the housing 11.

In addition, a fitting portion 193 is provided on each of the left andright side surfaces of the projecting portion 191 as shown in FIG. 3 toFIG. 5. For example, the fitting portion 193 is formed as a long shapedrecess along the direction in which the projecting portion 191 extends(that is, the vertical direction of the housing 11), as shown in FIG. 4and FIG. 5. In this manner, by providing the projecting portion 191 onthe rear surface of the housing 11 and forming the fitting portions 193in the side surfaces of the projecting portion 191, it is possible toattach a supporting member, such as a harness or a strap for mountingthe control device 10 on an area (for example, an arm or the like) ofthe user, to the rear surface of the housing 11. As a more specificexample, the supporting member may be provided with fitting portions(for example, projecting portions) formed to be fittable into the leftand right fitting portions 193, respectively. With such a configuration,by fitting the fitting portions provided on the supporting member sideinto the fitting portions 193 on the control device 10 side andsandwiching the projecting portion 191 on the control device 10 side bythe fitting portions on the supporting member side from the lateraldirection, it is possible to mount the supporting member on the rearsurface of the control device 10.

Note that the configuration of the projecting portion 191 and thefitting portions 193 is a mere example, and the configuration ofportions equivalent to the projecting portion 191 and the fittingportions 193 is not particularly limited as long as it is possible tomount a supporting member such as a harness or a strap on the rearsurface of the housing 11 of the control device 10.

An example of a schematic configuration of the control device 10according to the present embodiment has been described above withreference to FIG. 2 to FIG. 6.

{1.2.2. Configuration of Imaging Device}

Next, an example of a schematic configuration of the imaging device 20according to the present embodiment will be described with reference toFIG. 7 to FIG. 12. FIG. 7 to FIG. 12 are six side views showing anexample of a schematic configuration of the imaging device 20 accordingto the present embodiment, and respectively show the front view, therear view, the right side view, the left side view, the top view, andthe bottom view of the imaging device 20. Note that the presentdescription will be made assuming the direction corresponding to the topto the bottom of the front view shown in FIG. 7 as the verticaldirection of the imaging device 20, and assuming the directioncorresponding to the left to the right as the lateral direction of theimaging device 20. In addition, in the lateral direction of the rightside view shown in FIG. 9, the left direction (that is, the front viewside) is assumed as the front of the imaging device 20, and the rightdirection (that is, the rear surface side) is assumed as the back of theimaging device 20.

As shown in FIG. 7 to FIG. 12, the imaging device 20 includes asubstantially cuboid housing 21 whose right side surface and left sidesurface have been formed in a substantially rectangular shape, and asubstantially cylindrical lens unit 22 provided on the upper side of thefront surface of the housing 21 so as to protrude forward. The topsurface of the housing 21 is formed as such a curved shape that an arcis formed from the right side surface to the left side surface. Inaddition, an axis L of the substantially cylindrical lens unit 22substantially matches the direction from the back to the front of theimaging device 20. In addition, the lens unit 22 is formed such that apart of a surface positioned on the upper side of the peripheral surfaceof the cylinder continues to the curved top surface of the housing 21.In addition, the horizontal width (that is, the width between the rightside surface and the left side surface) of the housing 21 and thediameter of the lens unit 22 substantially match. Note that the lensunit 22 may be formed integrally with the housing 21.

In addition, a lens optical system 261 is provided on the front side ofthe lens unit 22. At this time, the optical axis direction of the lensoptical system 261 substantially matches the axis L of the substantiallycylindrical lens unit 22.

In addition, on the front surface of the housing 21, a sound collectionunit 270 is provided under the lens unit 22.

On the top surface of the housing 21, a recording button 221 and a powerbutton 224 are provided as shown in FIG. 11. The recording button 221 isan input interface for instructing the imaging device 20 to start andstop recording of a moving image or to capture a still image. Note thatanother function may be assigned to the recording button 221. Therecording button 221 is provided such that the top surface of the buttonprotrudes from the top surface of the housing 21 as shown in FIG. 9 andFIG. 10. In addition, the power button 224 is provided such that the topsurface of the button is buried in the top surface of the housing 21.

On the left side surface of the housing 21, a display unit 211, an upperbutton 222, a lower button 223, and a menu button 225 are provided asshown in FIG. 10. The display unit 211 includes a liquid crystal displayor the like, and presents various types of information as displayinformation. The upper button 222 and the lower button 223 are inputinterfaces for performing a manipulation such as selection from a menufor manipulating the imaging device 20 or switching between modes orfunctions. In addition, the menu button 225 is an input interface forcausing the manipulation menu of the imaging device 20 to be displayedon the display unit 211. Note that another function may be assigned tothe menu button 225.

The upper button 222 and the lower button 223 are provided to align inthe vertical direction close to the display unit 211 so as to bepositioned on the right side with respect to the display unit 211 (thatis, the front side of the imaging device 20). Note that the upper button222 and the lower button 223 are provided such that the upper button 222is positioned on the upper side, and the lower button 223 is positionedon the lower side. That is, the positional relationship of the displayunit 211 with the upper button 222 and the lower button 223 is similarto the positional relationship between the display unit 111 and theup-down button 122 in the control device 10 described with reference toFIG. 2 and FIG. 4. Thus, it is possible for the user to intuitivelymanipulate the upper button 222 and the lower button 223 with a similarsense to the case of manipulating the up-down button 122 in the controldevice 10.

In addition, the menu button 225 is provided close to the display unit211 so as to be positioned on the left side with respect to the displayunit 211 (that is, the back side of the imaging device 20).

On the right side surface the housing 21, a battery compartment isprovided as shown in FIG. 9, and a part of the right side surface of thehousing 21 is configured as a battery cover 293 that covers the batterycompartment. The battery cover 293 is configured to beattachable/detachable to/from the housing 21 by being slid backward.That is, by removing the battery cover 293, a battery holder is exposed,and it is possible to insert/remove the battery into/from the batteryholder. Note that an end of the battery cover 293 on the front side maybe supported pivotably on the housing 21. On the basis of such aconfiguration, the battery cover 293 may be configured to beopenable/closable by pivoting the end on the back side with the end onthe front side supported by the housing 21 serving as the base point.

In addition, at least a part of the end of the battery cover 293 on theback side is extended to the rear surface side of the housing 21, and alock switch 294 is provided on the portion extended to the rear surfaceside as shown in FIG. 8. The lock switch 294 is configured as aso-called slide switch. By being slid upward in a state where thebattery cover 293 is mounted on the housing 21, the lock switch 294restricts backward sliding of the battery cover 293 (that is, an actionfor removing the battery cover 293).

On the bottom surface of the housing 21, a fitting portion 291 and amemory card slot 292 are provided as shown in FIG. 12. The memory cardslot 292 is configured such that a memory card which is a semiconductorrecording medium can be attached/detached. With a memory card insertedinto the memory card slot 292, it is possible for the imaging device 20to record or read out image data such as a moving image or a stillimage.

The fitting portion 291 is a component for mounting a supporting memberfor supporting the imaging device 20, such as a tripod, a harness, astrap, or the like, on the bottom surface of the imaging device 20. Forexample, the fitting portion 291 may be formed as a so-called screw hole(female screw) obtained by forming a thread on the inner surface of arecess. In this case, by screwing a screw provided on the supportingmember side into the fitting portion 291, it is possible to mount thesupporting member on the bottom surface of the imaging device 20.

Note that the above-described configuration of the fitting portion 291is a mere example, and the configuration of the fitting portion 291 isnot particularly limited as long as a supporting member such as atripod, a harness, a strap, or the like can be mounted on the bottomsurface of the imaging device 20.

An example of a schematic configuration of the imaging device 20according to the present embodiment has been described above withreference to FIG. 7 to FIG. 12.

<1.3. Functional Configuration>

Subsequently, an example of a functional configuration of theinformation processing system 1 according to the present embodiment willbe described with reference to FIG. 13, particularly paying attention toa functional configuration of each of the control device 10 and theimaging device 20. FIG. 4 is a block diagram showing an example of thefunctional configuration of the information processing system 1according to the present embodiment.

(Imaging Device 20)

First, description will be made paying attention to the functionalconfiguration of the imaging device 20 according to the presentembodiment. As shown in FIG. 13, the imaging device 20 includes animaging unit 260, an output unit 210, an input unit 220, a communicationunit 230, a control unit 240, and a storage unit 250. Note that theimaging device 20 may include the sound collection unit 270. Inaddition, the control unit 240 includes an imaging control unit 241, aninput analysis unit 243, and an output control unit 245.

The communication unit 230 is a communication interface for eachcomponent in the imaging device 20 to communicate with an externaldevice (for example, the control device 10) via a network. Examples ofthe network include the wireless network N1 described with reference toFIG. 1. As a matter of course, as long as it is a network that canconnect the imaging device 20 and an external device, its form is notparticularly limited. Note that, in the following description, in thecase where each component in the imaging device 20 transmits/receivesinformation to/from an external device via a network, it is assumed thatthe information is transmitted/received via the communication unit 230even in the case where there is no particular description.

The imaging unit 260 includes an image sensor such as a complementarymetal-oxide semiconductor (CMOS) image sensor or a charge coupled device(CCD) image sensor, and an optical system such as a lens, and is acomponent for capturing an image of a subject. For example, the imagingunit 260 may be configured such that a focal position and a so-calledoptical zoom magnification can be adjusted by shifting the opticalsystem such as a lens along the optical axis direction. Note that theoperation of the imaging unit 260 is controlled by the control unit 240.In addition, the imaging unit 260 outputs data (hereinafter referred toas “image data” as well) of a captured image to the control unit 240.

The sound collection unit 270 includes a sound collection device such asa so-called microphone or the like, and collects external sound (forexample, ambient sound, voice, or the like). The operation of the soundcollection unit 270 is controlled by the control unit 240. In addition,the sound collection unit 270 outputs data indicating the result ofsound collection (hereinafter referred to as “acoustic data” as well) tothe control unit 240.

The storage unit 250 is a storage area for storing various types of datatemporarily or permanently. For example, image data based on the resultof imaging of the imaging unit 260 and acoustic data based on the resultof sound collection performed by the sound collection unit 270 arerecorded in the storage unit 250. In addition, data for the imagingdevice 20 to execute various functions may be recorded in the storageunit 250. As a specific example, data (for example, a library) forexecuting various applications, management data for managing varioussettings and the like, and the like may be recorded in the storage unit250.

The input unit 220 is an input interface for the user to input varioustypes of information to the imaging device 20. The input unit 220 mayinclude an input device for the user to input information, such as abutton, a switch, a touch panel, or the like, for example. For example,each of the recording button 221, the power button 224, the upper button222, the lower button 223, and the menu button 225 described withreference to FIG. 7 to FIG. 12 is equivalent to an example of the inputunit 220. Then, the input unit 220 outputs control informationindicating manipulation contents input by the user to the control unit240.

The output unit 210 is an output interface for the imaging device 20 topresent various types of information to the user. The output unit 210may include a display device that outputs an image such as a still imageor a moving image, such as a so-called display or the like, for example.For example, the display unit 211 described with reference to FIG. 7 toFIG. 12 is equivalent to an example of the output unit 210. In addition,the output unit 210 may include an acoustic device that outputs sound,such as a speaker or the like, for example. In addition, the output unit210 may include a vibration device, such as a so-called vibrator or thelike, that, by vibrating in a pattern corresponding to information to bea presentation target, presents the information to the user.

The input analysis unit 243 acquires control information indicating auser input from the input unit 220, and recognizes instruction contentsfrom the user on the basis of the acquired control information. Forexample, on the basis of control information indicating manipulationcontents via a button, the input analysis unit 243 may specify afunction associated with the button (that is, a function instructed bythe user to be executed). In addition, on the basis of controlinformation indicating manipulation contents via a button, a touchpanel, or the like, the input analysis unit 243 may specify informationselected by the user as a manipulation target among various types ofinformation presented via the output unit 210. In the foregoing manner,the input analysis unit 243 recognizes the instruction contents from theuser on the basis of control information acquired from the input unit220, and outputs information indicating the instruction contents to theimaging control unit 241 or the output control unit 245 in accordancewith the instruction contents.

In addition, the input analysis unit 243 may acquire informationindicating the instruction contents from the user input via the controldevice 10 from the control device 10 via the network. In this case, theinput analysis unit 243 outputs the acquired information indicating theinstruction contents to the imaging control unit 241 or the outputcontrol unit 245 in accordance with the instruction contents.

The imaging control unit 241 controls the operation related to imagecapturing. For example, the imaging control unit 241 acquiresinformation indicating an instruction of the operation related to imagecapturing based on an input from the user from the input analysis unit243, and controls the operation of the imaging unit 260 on the basis ofthe acquired information. In addition, the imaging control unit 241acquires image data from the imaging unit 260 as the result of imaging,and outputs the acquired image data to the output control unit 245.

In addition, the imaging control unit 241 may control the operation ofthe sound collection unit 270. For example, the imaging control unit 241acquires information indicating an instruction of the operation relatedto sound collection based on an input from the user from the inputanalysis unit 243, and controls the operation of the sound collectionunit 270 on the basis of the acquired information. In addition, theimaging control unit 241 acquires acoustic data from the soundcollection unit 270 as the result of sound collection, and outputs theacquired acoustic data to the output control unit 245.

In addition, the imaging control unit 241 may update various settingsand operation modes of each of the imaging unit 260 and the soundcollection unit 270 on the basis of an instruction from the useracquired via the input analysis unit 243.

In addition, the imaging control unit 241 may monitor the state of theimaging unit 260 or the sound collection unit 270, and may outputinformation indicating the result of monitoring to the output controlunit 245. As a specific example, the imaging control unit 241 maymonitor the temperature of the imaging unit 260 on the basis ofinformation indicating the result of sensing of the temperature of theimaging unit 260 output from a predetermined temperature sensor(illustration omitted), and may output information indicating the resultof monitoring to the output control unit 245. In addition, in the casewhere various settings and operation modes of each of the imaging unit260 and the sound collection unit 270 are updated, the imaging controlunit 241 may output information indicating the result of update to theoutput control unit 245.

The output control unit 245 is a component for controlling output ofvarious types of information. For example, the output control unit 245may acquire image data based on the result of imaging performed by theimaging unit 260 from the imaging control unit 241, and may cause theacquired image data to be output to the output unit 210 (for example, adisplay or the like). In addition, the output control unit 245 mayacquire acoustic data based on the result of sound collection performedby the sound collection unit 270 from the imaging control unit 241, andmay cause the acquired acoustic data to be output to the output unit 210(for example, a microphone or the like). In addition, the output controlunit 245 may cause the image data or acoustic data acquired from theimaging control unit 241 to be recorded in the storage unit 250.

In addition, the output control unit 245 may acquire informationindicating the result of update of various settings and operation modesof each of the imaging unit 260 and the sound collection unit 270 fromthe imaging control unit 241, and may update management data formanaging the settings and operation modes on the basis of the acquiredinformation. Note that the management data may be managed by beingrecorded in the storage unit 250, for example. In addition, the outputcontrol unit 245 may cause information indicating various settings andoperation modes of each of the imaging unit 260 and the sound collectionunit 270 to be output to the output unit 210 (for example, a display orthe like) on the basis of the management data.

In addition, the output control unit 245 may acquire informationindicating the result of monitoring the state of the imaging unit 260 orthe sound collection unit 270 from the imaging control unit 241. As aspecific example, the output control unit 245 may acquire informationindicating the result of monitoring the temperature of the imaging unit260 from the imaging control unit 241. Accordingly, in the case wherethe temperature of the imaging unit 260 indicates a value outside apredetermined range, for example, it is also possible for the outputcontrol unit 245 to sense this state as a temperature anomaly and tocause information indicating a warning of the temperature anomaly to beoutput to the output unit 210.

In addition, the output control unit 245 may acquire informationindicating an instruction of an operation related to output of varioustypes of information based on an input from the user from the inputanalysis unit 243, and may cause the output unit 210 to outputinformation instructed to be output on the basis of the acquiredinformation. As a specific example, the output control unit 245 maycause a manipulation menu for the user to instruct the imaging device 20to execute various functions to be output to the output unit 210 (forexample, a display or the like).

Note that an example of a UI (for example, a manipulation screen) forthe output control unit 245 to cause the above-described various typesof data and information to be output to the output unit 210 will bedescribed later in detail separately.

In addition, the output control unit 245 may transmit acquired varioustypes of information to the control device 10 via the network. As aspecific example, the output control unit 245 may transmit image data(for example, a preview image or the like) based on the result ofimaging performed by the imaging unit 260 to the control device 10.Accordingly, it is possible for the control device 10 to present theimage data to the user. The same also applies to acoustic data based onthe result of sound collection performed by the sound collection unit270. In addition, the output control unit 245 may transmit image data oracoustic data recorded in the storage unit 250 to the control device 10.In addition, the output control unit 245 may transmit informationindicating various settings and operation modes of each of the imagingunit 260 and the sound collection unit 270 to the control device 10.Accordingly, it is possible for the control device 10 to notify the userof the settings and operation modes. Similarly, the output control unit245 may transmit information based on the result of monitoring the stateof the imaging unit 260 or the sound collection unit 270 to the controldevice 10. Accordingly, it is possible for the control device 10 tonotify the user of the state of the imaging unit 260 or the soundcollection unit 270.

(Control Device 10)

Next, description will be made paying attention to the functionalconfiguration of the control device 10 according to the presentembodiment. As shown in FIG. 13, the control device 10 according to thepresent embodiment includes the display unit 111, an input unit 120, acommunication unit 130, a control unit 140, and a storage unit 150. Inaddition, the control unit 140 includes an input analysis unit 141 andan output control unit 143. Note that the control unit 140 is equivalentto an example of the “imaging control unit” in the control device 10.

The communication unit 130 is a communication interface for eachcomponent in the control device 10 to communicate with an externaldevice (for example, the imaging device 20) via a network. Note that, asthe communication unit 130, a component similar to the aforementionedcommunication unit 230 may be applied. Note that, in the followingdescription, in the case where each component in the control device 10transmits/receives information to/from an external device via a network,it is assumed that the information is transmitted/received via thecommunication unit 130 even in the case where there is no particulardescription.

The storage unit 150 is a storage area for storing various types of datatemporarily or permanently. For example, data for the control device 10to execute various functions may be recorded in the storage unit 150. Asa specific example, data (for example, a library) for executing variousapplications, management data for managing various settings and thelike, and the like may be recorded in the storage unit 150.

The input unit 120 is an input interface for the user to input varioustypes of information to the control device 10. The input unit 220 mayinclude an input device for the user to input information, such as abutton, a switch, a touch panel, or the like, for example. For example,each of the recording button 121, the up-down button 122, the powerbutton 123, and the menu button 124 described with reference to FIG. 2to FIG. 6 is equivalent to an example of the input unit 120. Then, theinput unit 120 outputs control information indicating manipulationcontents input by the user to the control unit 140.

The output unit 110 is an output interface for the control device 10 topresent various types of information to the user. The output unit 110may include a display device that outputs image information such as astill image or a moving image, such as a so-called display or the like,for example. For example, the display unit 111 described with referenceto FIG. 2 to FIG. 6 is equivalent to an example of the output unit 110.In addition, the output unit 110 may include an acoustic device thatoutputs sound, such as a speaker or the like, for example. In addition,the output unit 110 may include a vibration device, such as a so-calledvibrator or the like, that, by vibrating in a pattern corresponding toinformation to be a presentation target, presents the information to theuser.

The input analysis unit 141 acquires control information indicating auser input from the input unit 120, and recognizes instruction contentsfrom the user on the basis of the acquired control information. Forexample, the input analysis unit 141 may specify a function associatedwith the button (that is, a function instructed by the user to beexecuted) on the basis of control information indicating manipulationcontents via a button. In addition, the input analysis unit 141 mayspecify information selected by the user as a manipulation target amongvarious types of information presented via the output unit 110 on thebasis of control information indicating manipulation contents via abutton, a touch panel, or the like. In the foregoing manner, the inputanalysis unit 141 recognizes the instruction contents from the user onthe basis of the control information acquired from the input unit 120.

Then, in accordance with the instruction contents from the user, theinput analysis unit 141 determines an output destination of informationindicating the instruction contents. For example, in the case where theinstruction contents from the user indicate output of information viathe output unit 110, the input analysis unit 141 outputs the informationindicating the instruction contents to the output control unit 143. Inaddition, as another example, in the case where the instruction contentsfrom the user indicate an instruction related to control of theoperation of the imaging device 20, the input analysis unit 141transmits the information indicating the instruction contents to theimaging device 20 via the network.

The output control unit 143 is a component for controlling output ofvarious types of information. For example, the output control unit 143may acquire information indicating an instruction of an operationrelated to output of various types of information based on an input fromthe user from the input analysis unit 141, and on the basis of theacquired information, may cause the output unit 110 to outputinformation instructed to be output. As a specific example, the outputcontrol unit 143 may cause the output unit 110 (for example, a displayor the like) to output a manipulation menu for the user to instruct thecontrol device 10 to execute various functions.

In addition, the output control unit 143 may cause the output unit 110to output information indicating the state or setting of the controldevice 10. As a specific example, the output control unit 143 mayacquire information indicating the state of communication with theimaging device 20 from the communication unit 130, and on the basis ofthe acquired information, may notify the user of the state of thecommunication via the output unit 110. In addition, as another example,the output control unit 143 may acquire information indicating theremaining battery level of the control device 10 using a system call orthe like, for example, and on the basis of the acquired information, maynotify the user of information (for example, a warning or the like)corresponding to the remaining battery level via the output unit 110.

In addition, the output control unit 143 may acquire various types ofinformation from the imaging device 20 via the network, and may causethe output unit 110 to output the acquired information. For example, theoutput control unit 143 may acquire image data (for example, a previewimage or the like) or acoustic data from the imaging device 20, and maypresent the acquired image data or acoustic data to the user via theoutput unit 110. In addition, the output control unit 143 may acquireinformation indicating various settings and operation modes of theimaging device 20 from the imaging device 20, and on the basis of theacquired information, may notify the user of the settings and operationmodes via the output unit 110. Similarly, the output control unit 143may acquire information indicating the state of the imaging device 20(that is, information based on the result of monitoring the state) fromthe imaging device 20, and on the basis of the acquired information, maynotify the user of the state of the imaging device 20 via the outputunit 110.

An example of the functional configuration of the information processingsystem 1 according to the present embodiment has been described abovewith reference to FIG. 13, particularly paying attention to thefunctional configuration of each of the control device 10 and theimaging device 20.

<1.4. Technical Characteristics>

Subsequently, as technical characteristics of the information processingsystem 1 according to the present embodiment, an example of UIspresented by the control device 10 and the imaging device 20 will beparticularly described.

{1.4.1. Comparative Example}

First, in order for easier understanding of technical characteristics ofthe information processing system 1 according to the present embodiment,an example of a UI for presenting an image (for example, a previewimage) captured by the imaging device 20 and information indicating thesetting and state of the imaging device 20 will be described as acomparative example with reference to FIG. 14. FIG. 14 is an explanatorydiagram for describing an example of the UI according to the comparativeexample, and shows an example of the UI of the control device 10.

On the UI according to the comparative example, in the case where apredetermined button on the control device 10 side is pressed down, thescreen to be displayed on the display unit 111 is switched cyclicallyamong screens V90 a to V90 c, as shown in FIG. 14. For example, on thescreen V90 a, a preview image is presented, and various icons indicatingthe settings and states of each of the imaging device 20 and the controldevice 10 are superimposed on the preview image. In addition, on thescreen V90 b, presentation of various icons is restricted, and only thepreview image is presented. In addition, on the screen V90 c, byrestricting presentation of the preview image, more detailed informationthan on the screen V90 a is presented as information indicating thesettings and states of each of the imaging device 20 and the controldevice 10.

On the other hand, on the UI according to the comparative example, it isnecessary to restrict presentation of the preview image in order topresent a specific piece of information among pieces of informationindicating the settings and states of each of the imaging device 20 andthe control device 10, as is understood when comparing the screen V90 aand the screen V90 c. In other words, on the UI according to thecomparative example, it is necessary to temporarily hide the previewimage in order for the user to check a specific piece of information.Thus, for example, it may be difficult for the user to perform amanipulation related to image capturing while checking both of thespecific piece of information and the preview image.

Therefore, in view of the above-described circumstances, the presentdisclosure proposes a UI capable of presenting an image such as apreview image and various types of information (for example, setting,operation mode, state, and the like) related to image capturing in amore suitable manner.

{1.4.2. UI of Control Device}

First, an example of a UI of the control device 10 according to thepresent embodiment will be described with reference to FIG. 15 to FIG.18. FIG. 15 to FIG. 18 are explanatory diagrams for describing anexample of the UI of the control device 10 according to the presentembodiment.

For example, FIG. 15 shows an example of a screen displayed as a UI onthe display unit 111 of the control device 10. As shown in FIG. 15, ascreen V10 displayed on the display unit 111 includes a region V11 forpresenting an image (for example, a preview image) and regions V13 andV15 for presenting information corresponding to various states andsettings. For example, in the example shown in FIG. 15, the strip regionV13 with the lateral direction serving as the longitudinal direction isprovided above the region V11. Similarly, the strip region V15 with thelateral direction serving as the longitudinal direction is providedunder the region V11.

In the region V15, information indicating the settings and statesrelated to image capturing is displayed. For example, in the exampleshown in FIG. 15, pieces of display information V151 to V156 aredisplayed in the region V15. Specifically, the display information V151indicates the operation mode of the imaging device 20, and in theexample shown in FIG. 15, indicates a mode of capturing a moving image.In addition, the display information V152 indicates the capturing timeof video. In addition, the display information V153 indicates the formatof video. In addition, the display information V154 indicates the modeof video (for example, the number of frames or the like), and in theexample shown in FIG. 15, indicates that it is progressive videoincluding 30 frames per second. In addition, the display informationV155 indicates the setting of image stabilization. In addition, thedisplay information V156 indicates the setting of viewing angle.

In addition, information indicating other states other than the settingsand states related to image capturing is displayed in the region V13.For example, in the example shown in FIG. 15, pieces of displayinformation V131 to V136 are displayed in the region V13. Specifically,the display information V131 indicates the state of communication withthe imaging device 20 via a network based on the Wi-Fi standard.Similarly, the display information V132 indicates the state ofcommunication with the imaging device 20 via a network based on theBluetooth standard. In addition, the display information V133 indicatesthe state of a positioning function such as a global positioning system(GPS), and in the example shown in FIG. 15, indicates that thepositioning result is being acquired by a GPS provided on the imagingdevice 20 side. In addition, the display information V133 indicatesinformation related to the time, and in the example shown in FIG. 15,indicates the current time. Note that, as the display information V133,information related to the time other than the current time may bedisplayed. For example, in the case of reproducing an already capturedimage, information indicating the date and time when the image iscaptured may be displayed as the display information V133. In addition,the display information V135 indicates the remaining battery level ofthe imaging device 20, and the display information V136 indicates theremaining battery level of the control device 10 itself. In this manner,on the UI of the control device 10 according to the present embodiment,information on the control device 10 side and information on the imagingdevice 20 side may be displayed individually regarding some states andsettings.

Note that, in the regions V13 and V15, information set in advance as apresentation target in accordance with the operation state of thecontrol device 10 is displayed constantly as long as the operation stateis continued. Note that the “operation state” of the control device 10in the present description indicates a so-called operation mode to beswitched intentionally in accordance with a predetermined manipulation,such as a “single mode”, a “multi mode”, or the like which will bedescribed later. That is, information displayed constantly in theregions V13 and V15 may be switched in accordance with the operationstate (operation mode) of the control device 10. Note that the case ofexpressing “displayed constantly” in the following description does notnecessarily only indicate the case where information is always displayedin the same manner, but it is assumed that, for each predeterminedoperation state (operation mode), the case where informationcorresponding to the operation state is displayed constantly may also beincluded. In addition, the regions V13 and V15 are equivalent to anexample of a “second region”, and display information displayed in theregions V13 and V15 is equivalent to an example of “second information”.Note that, as long as being constantly displayed in a predeterminedoperation state (operation mode), the second information displayed inthe second region (for example, the regions V13 and V15) may becontrolled to be displayed constantly only in some operation states, forexample, not limited to all the operation states. In this case, forexample, an operation state (operation mode) in which the secondinformation is not displayed constantly may exist. A specific example ofthe operation state in which the second information is not displayedconstantly includes an operation state in which a menu screen such as amanipulation menu which will be described later is displayed, forexample. In addition, the second region is equivalent to an example of a“captured image hiding region”. However, a so-called preview image, anactually captured image, or the like may be displayed in the secondregion.

A so-called preview image, an actually captured image, or the like isdisplayed in the region V11. In addition, in the region V11, informationindicating various settings and states may be superimposed on thedisplayed image. For example, in the example shown in FIG. 15, pieces ofdisplay information V111 to V116 are superimposed on the image displayedin the region V11. Specifically, the display information V111 isinformation for warning that the temperature of the imaging device 20indicates a value outside a predetermined range, and is displayed inaccordance with the result of monitoring the temperature of the imagingdevice 20. In addition, the display information V112 indicates that thesound collection unit 270 of the imaging device 20 is off (that is, in astate in which sound is not collected). In addition, the displayinformation V113 indicates that the imaging device 20 is executingprocessing, and that a manipulation is temporarily restricted. Inaddition, the display information V114 indicates that it is in aso-called hold state in which manipulations via some input units 120(for example, a button and the like) in the control device 10 aretemporarily restricted. In addition, the display information V115indicates a manipulation assigned to the up-down button 122 shown inFIG. 2 and FIG. 4, and in the example shown in FIG. 15, indicates that azoom manipulation in image capturing has been assigned to the up-downbutton 122. In addition, the display information V116 indicates a zoommagnification in image capturing.

Note that various types of information superimposed on the imagedisplayed in the region V11 are temporarily displayed in accordance witha predetermined trigger, and are not displayed in the case where theimaging device 20 and the control device 10 itself are in a standardstate. Note that the standard state shall indicate a state used as areference of an operation, such as a state in which an anomaly such as atemperature increase is not sensed, a state in which a default settinghas been applied, or the like, for example. More specifically, thedisplay information V111 is displayed only in the case where atemperature anomaly of the imaging device 20 is detected. In addition,the display information V112 is not displayed in the case where thesound collection unit 270 of the imaging device 20 is on. In addition,the display information V113 is displayed only in the case where theimaging device 20 is executing processing. In addition, the displayinformation V114 is displayed only in the case of the hold state. Inaddition, the display information V115 is displayed temporarily justafter a manipulation is performed on the up-down button 122, and ishidden in the case where the state in which a manipulation on theup-down button 122 is not detected has continued for a predeterminedperiod. In addition, the display information V116 is displayed asinformation indicating the set magnification only in the case where thezoom magnification has been set at another value other than 1.0. Inaddition, the region V11 is equivalent to an example of a “firstregion”, and display information superimposed on the image displayed inthe region V11 is equivalent to an example of “first information”. Inaddition, the first region is equivalent to an example of a “capturedimage display region”.

Note that the contents of the “predetermined trigger” are notparticularly limited as long as it starts a transition to another statedifferent from the standard state. A specific example of the“predetermined trigger” includes an event in which another statedifferent from the standard state occurs along with sensing,predetermined input information to be input for causing a transition toanother state different from the standard state, and the like, forexample. In addition, “temporary display” means that, different fromconstant display, display is not presented in the standard state, butdisplay is presented in the case where a transition is made to anotherstate, for example. In addition, a trigger to hide informationtemporarily displayed is not particularly limited. For example,information “temporarily” displayed along with the occurrence of apredetermined situation may be controlled to be hidden along with theend of the situation, or may be controlled to be hidden after the lapseof a certain time from the occurrence of the situation. Note that, evenin the case where the aforementioned second region (for example, theregions V13 and V15) is displayed constantly in a predeterminedoperation state (operation mode), information (for example, a previewimage or first information) may be displayed in the first region (forexample, the region V11), or may not be displayed. In addition, at thistime, the state in which information is displayed and the state in whichinformation is not displayed may be switched dynamically in the firstregion. In other words, the first information (the display informationV111 to V116 or the like) is displayed in accordance with the secondinformation (the display information V131 to V136, V151 to V156, or thelike) being displayed, and the imaging device 20 and the control device10 itself being in a predetermined state (that is, another statedifferent from the standard state). That is, the first information isdisplayed only under certain conditions, whereas the second informationis displayed constantly in accordance with an operation state. Thus, thedisplay frequency of the first information is lower than the displayfrequency of the second information.

Here, with reference to FIG. 16, an example of an operation of the UI ofthe control device 10 according to the present embodiment will bedescribed particularly paying attention to an operation related todisplay of information. FIG. 16 is an explanatory diagram for describingan example of the operation of the UI of the control device 10 accordingto the present embodiment.

In FIG. 16, a screen denoted by a reference character V10 a shows anexample of a screen presented in the standard state. That is, in thestandard state, information indicating various states and settings isnot superimposed on an image displayed in the region V11, as shown asthe screen V10 a.

In addition, a screen denoted by a reference character V10 b shows anexample of a screen in the case where a manipulation on the up-downbutton 122 has been detected. In the example shown as the screen V10 b,display information V115 a indicating that a manipulation for switchingthe mode has been assigned to the up-down button 122 is displayed. Notethat, in the case where the state in which a manipulation on the up-downbutton 122 is not detected has continued for a predetermined period inthe state where the screen V10 b is displayed, the display informationV115 a is hidden.

In addition, a screen denoted by a reference character V10 c showsanother example of a screen in the case where a manipulation on theup-down button 122 has been detected. In the example shown as the screenV10 c, display information V115 b indicating that a zoom manipulation inimage capturing has been assigned to the up-down button 122 isdisplayed. In addition, since the zoom magnification has been set at 1.1in the example shown as the screen V10 c, the display information V116indicating the magnification is displayed. Note that, in the case wherethe zoom magnification is changed to 1.0 (default value), the displayinformation V116 is hidden. In addition, in the case where the state inwhich a manipulation on the up-down button 122 is not detected hascontinued for a predetermined period in the state where the screen V10 cis displayed, the display information V115 b is hidden.

In addition, as shown in FIG. 16, in any of the cases of the screens V10a to V10 c, information correlated in advance is displayed constantly ina predetermined layout in each of the regions V13 and V15.

Note that, among pieces of display information displayed on the screenV10, display information associated in advance with an input interfacesuch as a button provided for the control device 10 may be controlled indisplay position so as to be positioned close to the input interface.

For example, FIG. 17 is an explanatory diagram for describing thedisplay position of the display information V115 indicating amanipulation assigned to the up-down button 122. As described withreference to FIG. 2 and FIG. 4, the up-down button 122 is provided onthe right side surface of the housing 11 of the control device 10. Onthe basis of such a configuration, the display information V115 ispresented in a region positioned closer to the up-down button 122 in thescreen V10. For example, in the example shown in FIG. 17, the displayinformation V115 is displayed on the right end side of the screen V10.Note that, at this time, information indicating the setting based on themanipulation indicated by the display information V115, such as thedisplay information V116, may be displayed in a region positioned closeto the up-down button 122 (for example, on the right end side of thescreen V10 in FIG. 17), similarly to the display information V115.

In addition, display of the display information V115 and V116 and themanipulating direction indicated by the display information V115 may becontrolled such that the direction (manipulating direction) indicated bythe display information V115 and the manipulating direction (that is,the vertical direction) of the up-down button 122 substantially match.For example, in the example shown in FIG. 17, the display informationV115 indicates that the zoom magnification can be manipulated by amanipulation in the vertical direction. At this time, in the case wherethe upper side of the up-down button 122 is pressed down, the zoommagnification is controlled to become larger, and along with thecontrol, the display information V116 is updated. In addition, in thecase where the lower side of the up-down button 122 is pressed down, thezoom magnification is controlled to become smaller, and along with thecontrol, the display information V116 is updated.

Note that the control device 10 may be configured such that theorientation in which the screen V10 is displayed can be controlled insuch a manner that the top and the bottom of the screen V10 are reversedwith respect to the top and the bottom of the housing 11. For example,FIG. 18 shows an example of the case where the screen V10 is displayedin such a manner that the top and the bottom of the screen V10 arereversed with respect to the top and the bottom of the housing V11.Here, in the example shown in FIG. 18, in the case where the user isdiametrically opposed to the screen V10, the up-down button 122 ispositioned on the left side of the screen V10 as seen from the user.Thus, in the example shown in FIG. 18, the display information V115 andV116 may be controlled in display position so as to be displayed on theleft end side of the screen V10.

An example of the UI of the control device 10 according to the presentembodiment has been described above with reference to FIG. 15 to FIG.18. Note that the example described above is a mere example, and theexample described with reference to FIG. 15 to FIG. 18 is notnecessarily a limitation. For example, as long as the first region (forexample, the region V11) and the second region (for example, the regionsV13 and V15) are presented separately, the configuration of the screenV10 is not necessarily limited to the example shown in FIG. 15. Forexample, only either of the regions V13 and V15 may be presented. Inaddition, a strip second region with the vertical direction serving asthe longitudinal direction may be provided on either or both of the leftand right of the first region. In addition, a semi-transparent secondregion may be presented on the first region.

{1.4.3. Specific Example of Display Information}

Next, with reference to FIG. 15 and FIG. 19 to FIG. 23, a specificexample of display information displayed in each of the regions V11,V13, and V15 in the screen V10 will be described. FIG. 19 to FIG. 23 areexplanatory diagrams for describing an example of display information tobe displayed on the UI according to the present embodiment.

For example, FIG. 19 shows an example of the display information V151indicating the operation mode of the imaging device 20 to be displayedin the region V15 in the screen V10 shown in FIG. 15. Examples of theoperation mode of the imaging device 20 include modes such as videocapturing, still image capturing, interval shooting, loop recording,live streaming, and audio, as shown in FIG. 19. Note that the intervalshooting is a mode of capturing a still image at each interval set inadvance. In addition, the loop recording is a mode for capturing amoving image within the range of a capturing time determined in advance,and in the case where a moving image is captured beyond the capturingtime, a moving image (frame) captured in the past is deleted. With sucha configuration, during the loop recording, a moving image captured morerecently is held by priority within the range of the capturing timedetermined in advance. In addition, the live streaming is an operationmode for encoding a captured image or collected sound (voice) in realtime and distributing streams. In addition, the audio mode is anoperation mode for collecting acoustic data alone.

In addition, FIG. 20 shows another example of display information to bedisplayed in the region V15 in the screen V10 shown in FIG. 15. Asdescribed earlier, information indicating the states and settingsrelated to image capturing is displayed in the region V15. Specifically,pieces of information indicating viewing angle setting, an imagestabilization mode, a state indicating effectiveness and ineffectivenessof image stabilization, a video format, an interval timer, a state ofmedium, and the like are displayed in the region V15 as shown in FIG.20.

In addition, FIG. 21 shows an example of display information to bedisplayed in the region V13 in the screen V10 shown in FIG. 15. Asdescribed earlier, information indicating another state other than thestates and settings related to image capturing is displayed in theregion V13. Specifically, pieces of information indicating a mode ofcommunication (for example, the single mode and the multi mode) based onthe Wi-Fi standard, a state of communication based on the Bluetoothstandard, a state of a positioning function such as GPS, a settingsituation of an airplane mode, the remaining battery level of thecontrol device 10, the remaining battery level of the imaging device 20,and the like are displayed in the region V13 as shown in FIG. 21.

Note that the single mode among the communication modes based on theWi-Fi standard is a mode in which the control device 10 and the imagingdevice 20 are connected in a one-to-one manner as shown in FIG. 1. Inaddition, the multi mode is a mode in which a plurality of imagingdevices 20 are connected to the control device 10. In the multi mode, itis possible to check the state of each of the plurality of imagingdevices 20 via the control device 10, and to control the setting andoperation of each of the plurality of imaging devices 20 via the controldevice 10. Note that an example of the multi mode will be describedlater separately as a second embodiment.

In addition, FIG. 22 shows an example of display information to besuperimposed on an image displayed in the region V11 in the screen V10shown in FIG. 15. Specifically, in the region V11, a warning indicatinga state anomaly such as a temperature anomaly or the like, informationindicating a state in which some functions or manipulations arerestricted, such as during execution of processing or during holding, orthe like is displayed. In addition, in the region V11, informationexplicitly indicating that a setting different from the default state(for example, the standard state) has been made, such as a state inwhich some functions have been disabled (that is, have been turned off)or the like, may be displayed.

In addition, FIG. 23 shows an example of the display information V115indicating a manipulation assigned to the up-down button 122 to besuperimposed on an image displayed in the region V11 in the screen V10shown in FIG. 15. Examples of the manipulation assigned to the up-downbutton 122 include zoom control, mode switching, switching of an imagingdevice to be a control target in the multi mode, and the like. Inaddition, in the case where a manipulation via the up-down button 122 istemporarily restricted, information indicating that the manipulation isrestricted may be displayed as the display information V115.

A specific example of display information to be displayed in each of theregions V11, V13, and V15 in the screen V10 has been described abovewith reference to FIG. 15 and FIG. 19 to FIG. 23.

{1.4.4. UI of Imaging Device}

Subsequently, an example of a UI of the imaging device 20 according tothe present embodiment will be described with reference to FIG. 24,particularly paying attention to a screen presented on the display unit211 of the imaging device 20. FIG. 24 is an explanatory diagram fordescribing an example of the UI of the imaging device 20 according tothe present embodiment.

As shown in FIG. 24, a screen V20 displayed on the display unit 211includes a region V21 and a region V22. The region V22 is a region fordisplaying information indicating the settings and states related toimage capturing performed by the imaging device 20. In addition, theregion V21 is a region for displaying information indicating otherstates other than the settings and states related to image capturingperformed by the imaging device 20.

For example, in the example shown in FIG. 24, pieces of displayinformation V221 to V228 are displayed in the region V22, and areequivalent to the display information V151 to V156, V112, V115, and V116on the screen V10 (see FIG. 15) of the control device 10, respectively.More specifically, the display information V221 indicates the operationmode of the imaging device 20, and is equivalent to the displayinformation V151 on the screen V10. In addition, the display informationV222 indicates the setting of a viewing angle, and is equivalent to thedisplay information V156 on the screen V10. In addition, the displayinformation V223 indicates the zoom magnification in image capturing,and is equivalent to the display information V115 and V116 on the screenV10. In addition, the display information V224 indicates the format ofvideo, and is equivalent to the display information V153 on the screenV10. In addition, the display information V225 indicates the mode ofvideo (for example, the number of frames or the like), and is equivalentto the display information V154 on the screen V10. In addition, thedisplay information V226 indicates the setting of image stabilization,and is equivalent to the display information V155 on the screen V10. Inaddition, the display information V227 indicates that the soundcollection unit 270 of the imaging device 20 is off (that is, in a statein which sound is not collected), and is equivalent to the displayinformation V112 on the screen V10. In addition, the display informationV228 indicates the capturing time of video, and is equivalent to thedisplay information V152 on the screen V10.

In addition, in the example shown in FIG. 24, pieces of displayinformation V211 to V214 are displayed in the region V21, and areequivalent to the display information V131 to V133 and V135 on thescreen V10 (see FIG. 15) of the control device 10, respectively. Morespecifically, the display information V211 indicates the state ofcommunication with the control device 10 via a network based on theWi-Fi standard, and is equivalent to the display information V131 on thescreen V10. In addition, the display information V212 indicates thestate of communication with the control device 10 via a network based onthe Bluetooth standard, and is equivalent to the display informationV132 on the screen V10. In addition, the display information V213indicates the state of a positioning function such as GPS, and isequivalent to the display information V133 on the screen V10. Inaddition, the display information V214 indicates the remaining batterylevel of the imaging device 20, and is equivalent to the displayinformation V135 on the screen V10. Note that, in the region V21,display information indicating a temperature anomaly of the imagingdevice 20 equivalent to the display information V111 on the screen V10may be displayed.

Note that, as shown in FIG. 24, as display information displayed on eachof the regions V21 and V22 of the screen V20, display information withsimilar motifs to display information displayed on the screen V10 isused. In addition, on the screen V20, similarly to the screen V10 (seeFIG. 15) of the control device 10, the region V22 in which informationindicating the settings and states related to image capturing performedby the imaging device 20 is displayed is positioned on the lower side ofthe screen, and the region V21 in which information indicating otherstates is displayed is positioned on the upper side of the screen. Withsuch a configuration, it is possible for the user to intuitivelyrecognize the position at which desired information is displayed also inthe case of checking the screen V20 of the imaging device 20 with asimilar sense to the case of checking the screen V10 of the controldevice 10.

In addition, the zoom magnification in image capturing presented as thedisplay information V223 is changed by a manipulation via the upperbutton 222 and the lower button 223 described with reference to FIG. 10.That is, the correspondence of the display information V223 with theupper button 222 and the lower button 223 is similar to thecorrespondence between the display information V115 and the up-downbutton 122 in the control device 10. Thus, the display information V223is displayed in a region positioned close to the upper button 222 andthe lower button 223 on the screen V20 (that is, on the right end sideof the screen V20), similarly to the display information V115 on thescreen V10 of the control device 10. Thus, it is possible for the userto intuitively manipulate the zoom magnification via the upper button222 and the lower button 223 of the imaging device 20 with a similarsense to the case of manipulating the zoom magnification via the up-downbutton 122 of the control device 10.

Note that, in the case where the imaging device 20 is connected to thecontrol device 10 via the network, regarding some manipulations, amanipulation via the control device 10 may only be enabled, and amanipulation via the input interface of the imaging device 20 may berestricted in order to prevent an incorrect manipulation. As a specificexample, regarding the manipulation of the zoom magnification of theimaging device 20, a manipulation via the up-down button 122 of thecontrol device 10 may be enabled, and a manipulation via the upperbutton 222 and the lower button 223 of the imaging device 20 may bedisabled.

An example of the UI of the imaging device 20 according to the presentembodiment has been described above with reference to FIG. 24,particularly paying attention to the screen presented on the displayunit 211 of the imaging device 20. Note that the screen V20 shown inFIG. 24 is a mere example, and the UI of the imaging device 20 is notnecessarily limited only to the screen V20. As a specific example, ascreen (that is, a screen including regions equivalent to the regionsV11, V13, and V15) having a similar layout to the screen V10 (see FIG.15) and the control device 10 may be presented as the UI of the imagingdevice 20.

{1.4.5. Configuration of Manipulation Menu}

Subsequently, an example of manipulation menus of the control device 10and the imaging device 20 according to the present embodiment will bedescribed with reference to FIG. 25 and FIG. 26. Here, the manipulationmenus are UIs for selectively executing various functions (for example,changing of setting, execution of processing, and the like) of thecontrol device 10 and the imaging device 20.

For example, FIG. 25 is an explanatory diagram for describing an exampleof a manipulation menu V30 of the control device 10 according to thepresent embodiment. The manipulation menu V30 shown in FIG. 25 isdisplayed on the display unit 111 in the case where the menu button 124described with reference to FIG. 2 and FIG. 4 is pressed down, forexample. Specifically, when the menu button 124 is pressed down, ascreen V31 is displayed first.

In the manipulation menu V30, various functions of the control device 10and the imaging device 20 are classified in advance in accordance withthe type and target, and a manipulation screen for executing each of thefunctions is managed for each of the classes. For example, in theexample shown in FIG. 25, various functions of the control device 10 andthe imaging device 20 are classified into “mode switching”, “settingrelated to image capturing”, “image reproduction”, “setting of imagingdevice”, “setting of control device”, and “communication between imagingdevice and control device”, and managed. Thus, on the screen V31,display information (for example, an icon) indicating the class of eachof “mode switching”, “setting related to image capturing”, “imagereproduction”, “setting of imaging device”, “setting of control device”,and “communication between imaging device and control device” ispresented. By manipulating a predetermined button such as the up-downbutton 122 or the recording button 121, for example, to select displayinformation corresponding to a desired class among respective pieces ofpresented display information, the user can instruct the control device10 to display a manipulation screen for the function assigned to theclass. Note that the present description will be made assuming thatdisplay information associated with “setting related to image capturing”indicated by a reference character V311 has been selected.

When the display information V311 is selected, the screens V32 to V34for selecting respective functions classified as “setting related toimage capturing” are displayed on the display unit 111. On the screensV32 to V34, display information indicating the respective functionsclassified as “setting related to image capturing” is displayed. Forexample, on the screen V32, display information indicating functions ofchecking and changing the setting of each of “resolution and number offrames”, “image format”, “image stabilization”, “viewing angle”, “zoommagnification”, and “turning of screen corresponding to orientation ofimaging device” is presented. In addition, on the screen V33, displayinformation indicating functions of checking and changing the setting ofeach of “exposure (brightness of captured image)”, “screen size”, “autowhite balance”, “screen effect”, “on/off of speaker”, and “noisecancelling function of speaker” is presented. By manipulating apredetermined button such as the up-down button 122 or the recordingbutton 121 and switching the screen among the screens V32 to V34 toselect display information associated with a desired function, the usercan instruct the control device 10 to display a manipulation screen forthe function.

Note that, as display information displayed on the screens V32 to V34,motifs similar to the display information to be displayed on the screenV10 described with reference to FIG. 15 are used. Thus, it is possiblefor the user to intuitively recognize to which setting each piece ofdisplay information is related.

With the configuration as described above, when the display informationindicating the function of checking and changing the setting of “imagestabilization” indicated by a reference character V321 on the screen V32is selected, for example, a screen V35 for checking and changing thesetting of “image stabilization” is displayed. Then, by selectingdisplay information associated with a desired set value from amongpieces of display information associated with the respective set valuesof “image stabilization” presented on the screen V35, the setting of“image stabilization” is changed.

In the above manner, on the manipulation menu V30, the respectivescreens are associated hierarchically in accordance with the class. Withsuch a configuration, by selecting display information displayed on thescreen as appropriate in accordance with an object to cause amanipulation screen corresponding to a desired function to be displayed,and performing a manipulation in accordance with the manipulationscreen, it is possible for the user to cause the control device 10 toexecute the function.

Next, an example of a manipulation menu V40 of the imaging device 20according to the present embodiment will be described with reference toFIG. 26. The manipulation menu V40 shown in FIG. 26 is displayed on thedisplay unit 211 in the case where the menu button 225 described withreference to FIG. 10 is pressed down, for example.

Note that, as is understood when comparing FIG. 26 and FIG. 25, themanipulation menu V40 has a similar screen configuration to themanipulation menu V30 of the control device 10 except that displayinformation (for example, an icon or the like) is not displayed for afunction not existing on the imaging device 20 side. That is, a screenV41 in the manipulation menu V40 is equivalent to the screen V31 in themanipulation menu V30. Similarly, screens V42 to V45 in the manipulationmenu V40 are equivalent to the screens V32 to V35 in the manipulationmenu V30. In addition, also for display information (an icon or thelike) displayed on each of the screens V41 to V45 in the manipulationmenu V40, similar motifs to the display information displayed on each ofthe screens V31 to V35 in the manipulation menu V30 are used.

With such a configuration, it is possible for the user to intuitivelymanipulate the manipulation menu V40 of the imaging device 20 with asimilar sense to the case of manipulating the manipulation menu V30 ofthe control device 10.

An example of the manipulation menus of the control device 10 and theimaging device 20 according to the present embodiment has been describedabove with reference to FIG. 25 and FIG. 26.

<1.5. Evaluation>

As described above, the screen V10 presented as the UI of the controldevice 10 according to the present embodiment includes the region V11for presenting an image, and the regions V13 and V15 for presentinginformation corresponding to various states and settings, as shown inFIG. 15. In the regions V13 and V15, information set in advance as apresentation target in accordance with the operation state (operationmode) of the control device 10 is displayed constantly in apredetermined layout as long as the operation state is continued. On theother hand, various types of information superimposed on an imagedisplayed in the region V11 is temporarily displayed in accordance witha predetermined trigger, such as the case where a state in which imagecapturing is difficult has been detected, for example, and is notdisplayed in the case where the imaging device 20 and the control device10 are in the standard state.

With such a configuration, for example, it is possible for the user toinstruct the imaging device 20 to capture an image such as a movingimage or a still image via the control device 10 while checking both ofa preview image and various types of information (for example, setting,operation mode, state, and the like) related to image capturing. Inaddition, in the standard state, information is not superimposed on theimage displayed in the region V11, and thus, the occurrence of such asituation in which a part of the image is shielded by the information issuppressed. That is, it is possible for the user to capture an image ina more suitable environment.

In addition, in the case where a transition is made to a state differentfrom the standard state, such as a temperature anomaly of the imagingdevice 20 or the like, information (for example, a warning or the like)indicating the state different from the standard state, which is hiddenin the standard state, is superimposed on the image displayed in theregion V11. With such a configuration, it is possible to raise userawareness that a transition is being made to a state different from thestandard state (for example, an abnormal state is being sensed).

In addition, among pieces of display information displayed on the screenV10 of the control device 10, display information associated in advancewith the input interface such as a button provided for the controldevice 10 may be controlled in display position so as to be positionedclose to the input interface. This also applies to the case of turningthe housing 11 of the control device 10 such that the top and the bottomof the screen V10 are reversed. With such a configuration, even if theuser turns the screen V10 with respect to the housing 11 such that it iseasier to manipulate a predetermined input interface with his/her owndominant hand, display information associated with the input interfaceis displayed close to the input interface. Thus, it is possible for theuser to perform a more intuitive manipulation corresponding to his/herusage form.

In addition, in the present embodiment, display information with similarmotifs to display information displayed on the screen V10 (see FIG. 15)of the control device 10 is used as display information to be displayedon the screen V20 (see FIG. 24) of the imaging device 20. In addition,on the screen V20, the region V22 in which information indicating thesettings and states related to image capturing performed by the imagingdevice 20 is displayed is positioned on the lower side of the screen,and the region V21 in which information indicating other states isdisplayed is positioned on the upper side of the screen, similarly tothe screen V10 of the control device 10. With such a configuration, alsoin the case of checking the screen V20 of the imaging device 20, it ispossible for the user to intuitively recognize the position at whichdesired information is displayed with a similar sense to the case ofchecking the screen V10 of the control device 10.

In addition, in the present embodiment, the manipulation menu V30 (FIG.25) of the control device 10 and the manipulation menu V40 (FIG. 26 and)of the imaging device 20 have a similar screen configuration, anddisplay information with similar motifs is used as display informationto be displayed on each of the screens. With such a configuration, it ispossible for the user to perform an intuitive manipulation with asimilar sense both in the case of manipulating the manipulation menu V40of the imaging device 20 and in the case of manipulating themanipulation menu V30 of the control device 10.

2. Second Embodiment

Next, as a second embodiment of the present disclosure, an example ofthe UI of the control device 10 in the aforementioned multi mode (thatis, a mode in which a plurality of imaging devices 20 are connected tothe control device 10) will be described.

<2.1. System Configuration>

First, an example of a system configuration of an information processingsystem 2 according to the present embodiment will be described withreference to FIG. 27. FIG. 27 is an explanatory diagram for describingan example of a schematic system configuration of the informationprocessing system 2 according to the present embodiment, and shows anexample of a system configuration during the operation in the multimode.

As shown in FIG. 27, in the information processing system 2 according tothe present embodiment, the control device 10 and each of the pluralityof imaging devices 20 are connected so as to be capable of communicatingwith each other via the wireless network N1. For example, in the exampleshown in FIG. 27, each of imaging devices 20 a to 20 b is connected tothe control device 10 via the network N1. More specifically, in the caseof applying the network N1 based on the Wi-Fi standard, it is possibleto achieve a communication form as shown in FIG. 27 by causing thecontrol device 10 to operate as an access point and connecting each ofthe imaging devices 20 a to 20 c as a station to the control device 10.

Note that communication between the control device 10 and the imagingdevices 20 a to 20 c via the network N1 can be connected anddisconnected individually on the basis of a standard such as Wi-Fi orthe like, for example. Thus, for example, it is also possible todynamically increase or decrease the number of the imaging devices 20 tobe connected to the control device 10.

On the basis of such a configuration, the control device 10 isconfigured to be capable of controlling the operation (for example, theoperation related to image capturing) of each of the imaging devices 20a to 20 c connected via the network N1. At this time, the control device10 may individually control the operation of each of the imaging devices20 a to 20 c via the network N1. In addition, the control device 10 maycollectively control the operation of each of the imaging devices 20 ato 20 c via the network N1.

In addition, the control device 10 may present an image (for example, apreview image) captured by at least any imaging device 20 among theimaging devices 20 a to 20 c and transmitted from the imaging device 20via the network N1 to the user via the display unit 111. In addition,the control device 10 may acquire information indicating the setting andstate of each of the imaging devices 20 a to 20 c from each of theimaging devices 20 a to 20 c via the network N1, and may present theacquired information to the user via the display unit 111.

An example of the schematic system configuration of the informationprocessing system according to the second embodiment of the presentdisclosure has been described above with reference to FIG. 27.

<2.2. Technical Characteristics>

Next, as technical characteristics of the information processing system2 according to the present embodiment, an example of a UI presented bythe control device 10 during the operation in the multi mode will beparticularly described with reference to FIG. 28. FIG. 28 is anexplanatory diagram for describing an example of the UI of the controldevice 10 according to the present embodiment, and shows an example of ascreen displayed as a UI on the display unit 111 of the control device10. Note that, in the present description, it is assumed that each ofthe imaging devices 20 a to 20 e is connected to the control device 10via the network N1.

As shown in FIG. 28, a screen V50 displayed on the display unit 111includes a region V51 for presenting an image (for example, a previewimage), and regions V53 and V55 for presenting information correspondingto various states, settings, and the like. For example, in the exampleshown in FIG. 28, the strip region V53 with the lateral directionserving as the longitudinal direction is provided above the region V51.Similarly, the strip region V55 with the lateral direction serving asthe longitudinal direction is provided under the region V51. Such aconfiguration is similar to the configuration (that is, the positionalrelationship among the regions V11, V13, and V15) of the screen V10 ofthe control device 10 according to the first embodiment described withreference to FIG. 15.

In the region V53, information indicating other states other than thesettings and states related to image capturing is displayed. Note thatthe configuration of the region V53 is similar to the configuration ofthe region V13 in the screen V10 of the control device 10 according tothe first embodiment except that information on the imaging device 20side is not presented. For example, in the example shown in FIG. 28,pieces of display information V531 to V534 are displayed in the regionV53. Here, the display information V531, V532, V533, and V534 in FIG. 28correspond to V131, V132, V134, and V136 in the screen V10 shown in FIG.15.

On the other hand, on the screen V50 according to the presentembodiment, information V561 indicating the settings and states relatedto image capturing of each of the plurality of imaging devices 20connected to the control device 10 is displayed in the region V55 inassociation with regions different from one another in the region V55for each of the imaging device 20. For example, in the example shown inFIG. 28, in each of regions denoted by the reference characters V56 a toV56 e in the region V55, pieces of the information V561 indicating anoperation mode and an imaging state (for example, a recording state) aredisplayed for the imaging devices 20 different from one another. Forexample, in the region V56 a, the information V561 indicating theoperation mode and imaging state of the imaging device 20 a isdisplayed. Similarly, in the regions V56 b to V56 e, pieces of theinformation V561 indicating the operation modes and imaging states ofthe imaging devices 20 b to 20 e are displayed.

Note that the order of displaying the respective pieces of informationV561 of the plurality of imaging devices 20 in the region V53 may becontrolled in accordance with a predetermined condition. As a specificexample, the respective pieces of information V561 of the plurality ofimaging devices 20 may be displayed in accordance with the order ofconnection to the control device 10 via the network N1. In addition, asanother example, the respective pieces of information V561 of theplurality of imaging devices 20 may be displayed in the ordercorresponding to identification information (for example, number or thelike) set in advance for each of the plurality of imaging devices 20. Inaddition, as another example, the respective pieces of information V561of the plurality of imaging devices 20 may be displayed in the ordercorresponding to the positional relationship of the respective pluralityof imaging devices 20. More specifically, control may be exerted suchthat the information V561 of the imaging device 20 positioned closer tothe control device 10 is displayed by higher priority (for example, tobe positioned closer to the left side). In addition, as another example,the respective pieces of information V561 of the plurality of imagingdevices 20 may be displayed in the order corresponding to the respectivestates of the plurality of imaging devices 20. As a more specificexample, control may be exerted such that the information V561 of theimaging device 20 having a higher remaining battery level among theplurality of imaging devices 20 is displayed by higher priority (forexample, to be positioned closer to the left side). As a matter ofcourse, the example described above is a mere example, and the method isnot particularly limited as long as weights can be assigned to theplurality of imaging devices 20 in accordance with a predeterminedcondition, and the order of displaying the information V561 of each ofthe plurality of imaging devices 20 can be controlled in accordance withthe weights.

In addition, information indicating the setting of the order ofdisplaying the respective pieces of information V561 of the plurality ofimaging devices 20 in the region V53 may be held in a predeterminedstorage area. With such a configuration, when the plurality of imagingdevices 20 are connected to the control device 10, for example, it isalso possible to cause the respective pieces of information V561 of theplurality of imaging devices 20 to be displayed in the region V53 in asimilar order to a previous connection.

In the region V11, a so-called preview image, an actually capturedimage, and the like are displayed. In addition, in the region V11,information indicating various settings and states is superimposed on adisplayed image in some cases.

For example, in the example shown in FIG. 28, pieces of displayinformation V511 to V514 corresponding to various settings and states ofthe control device 10 are displayed in the region V11. Here, the displayinformation V511, V513, and V514 in FIG. 28 correspond to V113, V114,and V115 on the screen V10 shown in FIG. 15. In addition, the displayinformation V512 indicates that the control device 10 is operating inthe multi mode. Note that pieces of the display information V511 to V514are temporarily displayed in accordance with a predetermined trigger,and are not displayed in the case where the control device 10 is in thestandard state.

In addition, in the region V51, display information V562 correspondingto the state of each of the plurality of imaging devices 20 is displayedfor each of the imaging devices 20 in some cases. At this time, forexample, the display information V562 corresponding to the state of theimaging device 20 a is displayed close to the information V561 of theimaging device 20 a displayed in the region V56 a in the region V55. Forexample, in the example shown in FIG. 28, the display information V562corresponding to the state of the imaging device 20 a is displayed at aposition equivalent to directly above the display information V561 ofthe imaging device 20 a displayed in the region V56 a in a region closeto the lower end of the region V51. In addition, for each of the imagingdevices 20 b to 20 e, the display information V562 of each of theimaging devices 20 is similarly displayed close to the displayinformation V561 of the imaging device 20 displayed in the region V55.

In addition, the display information V562 of each of the respectiveimaging devices 20 is displayed temporarily in accordance with apredetermined trigger, and is not displayed in the case where theimaging device 20 is in the standard state. As a specific example, inthe case where a state anomaly such as a temperature anomaly or the likeor a state in which some functions or manipulations are restricted, suchas during execution of processing, is detected in each of the imagingdevices 20, display information corresponding to the state is displayedas the display information V562 of the imaging device 20.

Note that the manner of displaying an image such as a preview image inthe region V51 is not particularly limited. For example, only imagescaptured by some of the imaging devices 20 which are selected by theuser from the plurality of imaging devices 20 connected to the controldevice 10 may be displayed in the region V51. In addition, as anotherexample, by dividing the region V51 into a plurality of regions, animage captured by each of the plurality of imaging devices 20 may becaused to be displayed in each of the divided regions.

In addition, in the state where each of the imaging devices 20 iscapturing an image in the multi mode, at least some of manipulations viathe input interface of each of the control device 10 and the imagingdevice 20 may be restricted in order to prevent an incorrectmanipulation. As a specific example, in the state where each of theimaging devices 20 is capturing an image in the multi mode, themanipulation of the zoom magnification of each of the imaging devices 20may be restricted. In this case, control may be exerted such that, inthe state where each of the imaging devices 20 is not capturing animage, for example, the manipulation of the zoom magnification of eachof the imaging devices 20 is enabled. As a matter of course, regardlessof the state of each of the imaging devices 20, a manipulation via theinput interface of each of the control device 10 and the imaging device20 may be enabled at all the times. In addition, at least some of theplurality of imaging devices 20 may be configured such that amanipulation on each of the imaging devices 20 can be set as presetting.

As technical characteristics of the information processing system 2according to the present embodiment, an example of the UI presented bythe control device 10 during the operation in the multi mode has beenparticularly described above with reference to FIG. 28.

<2.3. Evaluation>

As described above, the screen V50 presented as the UI of the controldevice 10 according to the present embodiment includes the region V51for presenting an image and the regions V53 and V55 for presentinginformation corresponding to various states, settings, and the like, asshown in FIG. 28. In the regions V53 and V55, information set in advanceas a presentation target in accordance with the operation state(operation mode) of the control device 10 is displayed constantly in apredetermined layout as long as the operation state is continued. Notethat, on the other hand, various types of information superimposed on animage displayed in the region V11 is temporarily displayed in accordancewith a predetermined trigger such as the case where a state in whichimage capturing is difficult is detected or the like, for example, andis not displayed in the case where the imaging device 20 and the controldevice 10 itself are in the standard state.

In particular, on the screen V50, the display information V561corresponding to the state of each of the plurality of imaging devices20 connected to the control device 10 is displayed constantly in theregion V55. With such a configuration, it is possible for the user toalways grasp the state of each of the imaging devices 20. In addition,information is not superimposed on an image displayed in the region V51in the standard state, and thus, the occurrence of such a situation inwhich a part of the image is shielded by the information is suppressed.That is, it is possible for the user to capture an image in a moresuitable environment.

In addition, in the case where at least any of the plurality of imagingdevices 20 transitions to a state different from the standard state,such as a temperature anomaly, information (for example, a warning orthe like) indicating the state, which is hidden in the standard state,is superimposed on the image displayed in the region V51. With such aconfiguration, it is possible to raise user awareness that a transitionis being made to a state different from the standard state (for example,an abnormal state is being sensed). In addition, at this time, thedisplay information V562 of each of the plurality of imaging devices 20is displayed to be positioned close to the display information V561 ofthe imaging device 20 displayed in the region V55. With such aconfiguration, it is possible for the user to more intuitively grasp theimaging device 20 transitioned to a state different from the standardstate among the plurality of imaging devices 20 connected to the controldevice 10.

3. Hardware Configuration Example

Next, a hardware configuration of the control device 10 according to anembodiment of the present disclosure will be described with reference toFIG. 29. FIG. 29 is a block diagram illustrating a hardwareconfiguration example of the control device 10 according to anembodiment of the present disclosure.

As illustrated in FIG. 29, the control device 10 includes a centralprocessing unit (CPU) 901, a read only memory (ROM) 903, and a randomaccess memory (RAM) 905. In addition, the control device 10 may includea host bus 907, a bridge 909, an external bus 911, an interface 913, aninput device 915, an output device 917, a storage device 919, a drive921, a connection port 923, and a communication device 925. Further, thecontrol device 10 may include an imaging device 933 and a sensor 935 asnecessary. The control device 10 may include a processing circuit suchas a digital signal processor (DSP) or an application specificintegrated circuit (ASIC) instead of or in addition to the CPU 901.

The CPU 901 serves as an operation processing device and a controldevice, and controls all of or a part of the operations in the controldevice 10 in accordance with various programs recorded in the ROM 903,the RAM 905, the storage device 919 or a removable recording medium 927.The ROM 903 stores programs and operation parameters used by the CPU901. The RAM 905 temporarily stores program used in the execution of theCPU 901 and parameters that changes as appropriate in the execution. TheCPU 901, ROM 903, and RAM 905 are connected to each other by the hostbus 907 including an internal bus such as a CPU bus. In addition, thehost bus 907 is connected to the external bus 911 such as a peripheralcomponent interconnect/interface (PCI) bus via the bridge 909. Notethat, each of the configuration of the above-described control unit 140may be implemented by the CPU 904, for example.

The input device 915 is, for example, a device manipulated by a userwith a mouse, a keyboard, a touch panel, buttons, switches, a lever, andthe like. The input device 915 may include a mic that detects a sound ofa user. The input device 915 may be, for example, a remote control unitusing infrared light or other radio waves, or may be an externalconnection device 929 such as a portable phone operable in response tothe manipulation of the control device 10. The input device 915 includesan input control circuit that generates an input signal on the basis ofthe information input by a user and outputs the input signal to the CPU901. By manipulating the input device 915, a user can input varioustypes of data to the control device 10 or issue instructions for causingthe control device 10 to perform a processing operation. In addition,the imaging device 933 to be described below can function as an inputdevice by imaging a motion or the like of a hand of the user. Note that,the above-described input unit 120 may be implemented by the inputdevice 915, for example.

The output device 917 includes a device capable of visually or audiblynotifying a user of the acquired information. The output device 917 maybe, for example, a display device such as a liquid crystal display(LCD), a plasma display panel (PDP), an organic electro-luminescence(EL) display, and a projector, a hologram display device, an audiooutput device, such as a speaker or a headphone, and a printer. Theoutput device 917 outputs the results obtained from the process of thecontrol device 10 in a form of video such as text or an image and voiceor sound. In addition, the output device 917 may include a light or thelike to brighten the surroundings. Note that, the above-described outputunit 110 may be implemented by the output device 917, for example.

The storage device 919 is a device for data storage configured as anexample of a storage unit of the control device 10. The storage device919 includes, for example, a magnetic storage device such as a hard diskdrive (HDD), a semiconductor storage device, an optical storage device,or a magneto-optical storage device. The storage device 919 storesprograms to be executed by the CPU 901, various data, and data obtainedfrom the outside. Note that the above-described storage unit 150 may beimplemented by the storage device 919, for example.

The drive 921 is a reader/writer for the removable recording medium 927such as a magnetic disk, an optical disk, a magneto-optical disk, or asemiconductor memory, and is embedded in the control device 10 orexternally attached thereto. The drive 921 reads information recorded inthe attached removable recording medium 927 and outputs the informationto the RAM 905. Further, the drive 921 writes record in the attachedremovable recording medium 927.

The connection port 923 is a port used to directly connect devices tothe control device 10. The connection port 923 may be, for example, auniversal serial bus (USB) port, an IEEE1394 port, a small computersystem interface (SCSI) port, or the like. In addition, the connectionport 923 may be an RS-232C port, an optical audio terminal,High-Definition Multimedia Interface (HDMI) (registered trademark) port,or the like. By connecting the external connection device 929 to theconnection port 923, various data may be exchanged between the controldevice 10 and the external connection device 929.

The communication device 925 is, for example, a communication interfaceincluding a communication device or the like for connection to acommunication network 931. The communication device 925 may be, forexample, a communication card for a wired or wireless local area network(LAN), Bluetooth (registered trademark), wireless USB (WUSB), or thelike. In addition, the communication device 925 may be a router foroptical communication, a router for asymmetric digital subscriber line(ADSL), a modem for various kinds of communications, or the like. Thecommunication device 925 transmits and receives signals to and from, forexample, the Internet or other communication devices using apredetermined protocol such as TCP/IP. In addition, the communicationnetwork 931 to be connected to the communication device 925 is a networkconnected in a wired or wireless manner, and is, for example, theInternet, a home LAN, infrared communication, radio wave communication,satellite communication, or the like. Note that the above-describedcommunication unit 130 may be implemented by the communication device925, for example.

The imaging device 933 is a device that generates an image by imaging areal space using an image sensor such as a charge-coupled device (CCD)or a complementary metal oxide semiconductor (CMOS), as well as variousmembers such as one or more lenses for controlling the formation of asubject image on the image sensor, for example. The imaging device 933may be a device that captures still images and may also be a device thatcaptures moving images. Note that the above-described imaging unit 207may be implemented by the imaging device 933, for example.

The sensor 935 is any of various sensors such as an acceleration sensor,a gyro sensor, a geomagnetic sensor, an optical sensor, or a soundsensor, for example. The sensor 935 acquires information regarding thestate of the control device 10, such as the attitude of the case of thecontrol device 10, as well as information regarding the environmentsurrounding the control device 10, such as brightness or noisesurrounding the control device 10, for example. The sensor 935 may alsoinclude a global positioning system (GPS) sensor that receives GPSsignals and measures the latitude, longitude, and altitude of thedevice.

The foregoing thus illustrates an exemplary hardware configuration ofthe control device 10. Each of the above components may be realized withgeneral-purpose members or hardware specialized in the function of eachcomponent. Such a configuration may also be modified as appropriate inaccordance with the technological level at the time of theimplementation.

Further, it is also possible to create a program for causing hardwaresuch as a processor, a memory, and a storage incorporated into acomputer to exert a function equivalent to the structural elementsincluded in the above-described control device 10. In addition, it isalso possible to provide a computer readable storage medium in which theprogram is recorded.

4. Conclusion

The preferred embodiment(s) of the present disclosure has/have beendescribed above with reference to the accompanying drawings, whilst thepresent disclosure is not limited to the above examples. A personskilled in the art may find various alterations and modifications withinthe scope of the appended claims, and it should be understood that theywill naturally come under the technical scope of the present disclosure.

Further, the effects described in this specification are merelyillustrative or exemplified effects, and are not limitative. That is,with or in the place of the above effects, the technology according tothe present disclosure may achieve other effects that are clear to thoseskilled in the art from the description of this specification.

Additionally, the present technology may also be configured as below.

(1)

An information processing apparatus including:

a display control unit configured to

-   -   cause an image captured by any of one or a plurality of imaging        devices to be displayed in a captured image display region that        is a part of a display unit,    -   cause second information related to the one or plurality of        imaging devices to be displayed in a captured image hiding        region that is a part of the display unit and different from the        captured image display region, and    -   cause first information related to the one or plurality of        corresponding imaging devices to be displayed in the captured        image display region in accordance with the second information        being displayed and the one or plurality of imaging devices        being in a predetermined state.        (2)

The information processing apparatus according to (1), in which

the second information is information related to an operation state ofthe one or plurality of imaging devices and displayed constantly.

(3)

The information processing apparatus according to (1) or (2), in which

the first information is information related to capturing of the imageor restriction of a manipulation performed by the one or plurality ofimaging devices.

(4)

The information processing apparatus according to any one of (1) to (3),in which

an operation state of the imaging devices is a state related to a stateor setting related to capturing of the image performed by the one orplurality of imaging devices.

(5)

The information processing apparatus according to any one of (1) to (4),including:

a communication unit configured to communicate with the imaging devices,in which

the display control unit causes the image captured by the imagingdevices to be displayed in the captured image display region.

(6)

The information processing apparatus according to (5), including:

an imaging control unit configured to, on a basis of communication withthe imaging devices via the communication unit, control an operation ofthe imaging devices.

(7)

The information processing apparatus according to any one of (1) to (4),including:

at least one of the the one or plurality of imaging devices, in which

the display control unit causes the image captured by the imaging deviceto be displayed in the captured image display region.

(8)

The information processing apparatus according to any one of (1) to (7),in which

the display control unit causes the second information related to theplurality of imaging devices to be displayed, and causes firstinformation related to the plurality of imaging devices corresponding tothe second information to be displayed in accordance with the secondinformation being displayed and a state of the plurality of imagingdevices.

(9)

The information processing apparatus according to (8), in which

the display control unit causes the first information to be displayed inthe captured image display region for each of the plurality of imagingdevices in association with the second information associated with theimaging device, in accordance with the state of each of the imagingdevices.

(10)

The information processing apparatus according to (8) or (9), in which

the display control unit causes the second information associated witheach of the plurality of imaging devices to be displayed in the capturedimage hiding region in an order corresponding to a predeterminedcondition.

(11)

The information processing apparatus according to any one of (1) to(10), in which

the display control unit presents a plurality of the captured imagehiding regions on the display unit, and causes the plurality ofrespective captured image hiding regions to display pieces ofinformation different from one another as the second information.

(12)

The information processing apparatus according to (11), in which thedisplay control unit causes information corresponding to a state orsetting related to capturing of the image to be displayed in some of theplurality of captured image hiding regions.

(13)

The information processing apparatus according to (11), in which

the display control unit causes information corresponding to anotherstate different from the state related to capturing of the image to bedisplayed in some of the plurality of captured image hiding regions.

(14)

The information processing apparatus according to any one of (1) to(13), including:

a manipulation unit configured to accept a manipulation on the displayunit in a predetermined direction; and

a housing configured to hold the display unit and the manipulation unitsuch that the display unit and the manipulation unit are positionedclose to each other, in which

the display control unit causes display information corresponding to amanipulating direction of the manipulation unit to be displayed as thefirst information in a portion of the captured image display regionpositioned close to the manipulation unit, in accordance with a displaystate of information on the display unit.

(15)

The information processing apparatus according to (14), in which

the display control unit causes the display information to be displayedin the captured image display region such that the manipulatingdirection of the manipulation unit and a direction indicated by thedisplay information displayed in the captured image display regionsubstantially match.

(16)

An information processing method including, by a processor:

causing an image captured by any of one or a plurality of imagingdevices to be displayed in a captured image display region that is apart of a display unit;

causing second information related to the one or plurality of imagingdevices to be displayed in a captured image hiding region that is a partof the display unit and different from the captured image displayregion; and

causing first information related to the one or plurality ofcorresponding imaging devices to be displayed in the captured imagedisplay region in accordance with the second information being displayedand the one or plurality of imaging devices being in a predeterminedstate.

(17)

A program causing a computer to execute:

causing an image captured by any of one or a plurality of imagingdevices to be displayed in a captured image display region that is apart of a display unit;

causing second information related to the one or plurality of imagingdevices to be displayed in a captured image hiding region that is a partof the display unit and different from the captured image displayregion; and

causing first information related to the one or plurality ofcorresponding imaging devices to be displayed in the captured imagedisplay region in accordance with the second information being displayedand the one or plurality of imaging devices being in a predeterminedstate.

(18)

An information processing system including:

one or a plurality of imaging devices configured to capture an image;and

a display control device including a communication unit configured tocommunicate with the one or plurality of imaging devices and a displaycontrol unit configured to cause the image captured by any of the one orplurality of imaging devices to be displayed in a captured image displayregion that is a part of a display unit, in which

the display control unit

-   -   causes second information related to the one or plurality of        imaging devices to be displayed in a captured image hiding        region that is a part of the display unit and different from the        captured image display region, and    -   causes first information related to the one or plurality of        corresponding imaging devices to be displayed in the captured        image display region in accordance with the second information        being displayed and the one or plurality of imaging devices        being in a predetermined state.        (19)

The information processing system according to (18), including:

the plurality of imaging devices, in which

in accordance with a state or setting of each of the plurality ofimaging devices, the display control unit causes the second informationto be displayed in the captured image hiding region for each of theimaging devices in association with the imaging devices.

REFERENCE SIGNS LIST

-   1, 2 information processing system-   10 control device-   11 housing-   110 output unit-   111 display unit-   120 input unit-   121 recording button-   122 up-down button-   123 power button-   124 menu button-   130 communication unit-   140 control unit-   141 input analysis unit-   143 output control unit-   150 storage unit-   191 projecting portion-   192 connector-   193 fitting portion-   20 imaging device-   21 housing-   22 lens unit-   207 imaging unit-   210 output unit-   211 display unit-   220 input unit-   221 recording button-   222 upper button-   223 lower button-   224 power button-   225 menu button-   230 communication unit-   240 control unit-   241 imaging control unit-   243 input analysis unit-   245 output control unit-   250 storage unit-   260 imaging unit-   261 lens optical system-   270 sound collection unit-   291 fitting portion-   292 memory card slot-   293 battery cover-   294 lock switch

The invention claimed is:
 1. An information processing apparatus, comprising: a display unit; and a central processing unit (CPU) configured to: control display of an image, captured by an imaging device, in a captured image display region, wherein the captured image display region is a part of the display unit; control display of first information related to the imaging device, in a captured image hiding region, wherein the captured image hiding region is a part of the display unit, and the captured image hiding region is different from the captured image display region; and control display of second information, related to the imaging device, in the captured image display region based on detection of a temperature anomaly of the imaging device by the imaging device, wherein the second information includes a warning of the detected temperature anomaly, the detection of the temperature anomaly is based on a value of temperature of the imaging device being outside of a specific temperature range, and the second information is concurrently displayed with the first information.
 2. The information processing apparatus according to claim 1, wherein the first information is information related to an operation state of the imaging device, and the first information is displayed constantly.
 3. The information processing apparatus according to claim 1, wherein the second information is related to a capture of the image by the imaging device.
 4. The information processing apparatus according to claim 1, wherein an operation state of the imaging device is one of a state or setting related to a capture of the image by the at least one imaging device.
 5. The information processing apparatus according to claim 1, wherein the CPU is further configured to communicate with the imaging device.
 6. The information processing apparatus according to claim 5, wherein the CPU is further configured to control an operation of the imaging device based on communication with the imaging device.
 7. The information processing apparatus according to claim 1, further comprising the imaging device.
 8. The information processing apparatus according to claim 1, wherein the CPU is further configured to control the display of the second information related to the imaging device based on a transition of an operation state of the imaging device from a standard state to a non-standard state of the imaging device, and an operation of the imaging device has an anomaly in the non-standard state.
 9. The information processing apparatus according to claim 1, wherein the CPU is further configured to control the display of the first information and the second information in the captured image display region, the second information is associated with each of a plurality of imaging devices, and the first information is associated with the imaging device, based on a state of the imaging device.
 10. The information processing apparatus according to claim 9, wherein the CPU is further configured to control the display of the first information, associated with the imaging device, in the captured image hiding region in an order corresponding to a determined condition.
 11. The information processing apparatus according to claim 1, wherein the CPU is further configured to: control display of a plurality of captured image hiding regions on the display unit; and control display of a plurality of pieces of information in the plurality of captured image hiding regions, and the plurality of pieces of information is associated with the first information.
 12. The information processing apparatus according to claim 11, wherein the CPU is further configured to control display of information corresponding to one of a first state or setting related to a capture of the image, in a first set of captured image hiding regions of the plurality of captured image hiding regions.
 13. The information processing apparatus according to claim 12, wherein the CPU is further configured to control display of information corresponding to a second state related to the capture of the image in a second set of captured image hiding regions of the plurality of captured image hiding regions, and the second state is different from the first state.
 14. The information processing apparatus according to claim 1, further comprising: an input button configured to accept a manipulation on the display unit in a determined direction; and a housing configured to hold the display unit and the input button such that the display unit is positioned close to the input button, wherein the CPU is further configured to control display of display information corresponding to a manipulating direction of the input button, and the display information is displayed in a portion of the captured image display region positioned close to the input button, based on a display state of the display unit.
 15. The information processing apparatus according to claim 14, wherein the CPU is further configured to control the display of the display information in the captured image display region such that the manipulating direction, of the input button, substantially matches with a direction indicated by the display information displayed in the captured image display region.
 16. An information processing method, comprising: controlling display of an image, captured by an imaging device, in a captured image display region, wherein the captured image display region is a part of a display unit; controlling display of first information related to the imaging device, in a captured image hiding region, wherein the captured image hiding region is a part of the display unit, and the captured image hiding region is different from the captured image display region; and controlling display of second information, related to the at least one imaging device, in the captured image display region based on detection of a temperature anomaly of the imaging device by the imaging device, wherein the second information includes a warning of the detected temperature anomaly, the detection of the temperature anomaly is based on a value of temperature of the imaging device being outside of a specific temperature range, and the second information is concurrently displayed with the first information.
 17. A non-transitory computer-readable medium having stored thereon, computer-executable instructions which, when executed by a processor, cause the processor to execute operations, the operations comprising: controlling display of an image, captured by an imaging device, in a captured image display region, wherein the captured image display region is a part of a display unit; controlling display of first information related to the imaging device, in a captured image hiding region, wherein the captured image hiding region is a part of the display unit, and the captured image hiding region is different from the captured image display region; and controlling display of second information, related to the at least one imaging device, in the captured image display region based on detection of a temperature anomaly of the imaging device by the imaging device, wherein the second information includes a warning of the detected temperature anomaly, the detection of the temperature anomaly is based on a value of temperature of the imaging device being outside of a specific temperature range, and the second information is concurrently displayed with the first information.
 18. An information processing system, comprising: an imaging device configured to capture an image and detect a temperature anomaly of the imaging device; and a display control device including: a display unit; a central processing unit (CPU) configured to: communicate with the imaging device; control display of the image, captured by the imaging device, in a captured image display region, wherein the captured image display region is a part of the display unit; control display of first information related to the imaging device, in a captured image hiding region, wherein the captured image hiding region is a part of the display unit, and the captured image hiding region is different from the captured image display region; and control display of second information, related to the at least one imaging device, in the captured image display region based on the detection of the temperature anomaly of the imaging device, wherein the second information includes a warning of the detected temperature anomaly, the detection of the temperature anomaly is based on a value of temperature of the imaging device being outside of a specific temperature range, and the second information is concurrently displayed with the displayed first information.
 19. The information processing system according to claim 18, further comprising a plurality of imaging devices including the at least one imaging device, wherein the CPU is further configured to control the display of the first information in the captured image hiding region for each of the plurality of imaging devices, based on one of a state or setting of each of the plurality of imaging devices. 